Threshold effects of hazard mitigation in coastal human–environmental systems
Threshold effects of hazard mitigation in coastal human–environmental systems
Despite improved scientific insight into physical and social dynamics related to natural disasters, the financial cost of extreme events continues to rise. This paradox is particularly evident along developed coastlines, where future hazards are projected to intensify with consequences of climate change, and where the presence of valuable infrastructure exacerbates risk. By design, coastal hazard mitigation buffers human activities against the variability of natural phenomena such as storms. But hazard mitigation also sets up feedbacks between human and natural dynamics. This paper explores developed coastlines as exemplary coupled human–environmental systems in which hazard mitigation is the key coupling mechanism. Results from a simplified numerical model of an agent-managed seawall illustrate the nonlinear effects that economic and physical thresholds can impart into coastal human–environmental system dynamics. The scale of mitigation action affects the time frame over which human activities and natural hazards interact. By accelerating environmental changes observable in some settings over human timescales of years to decades, climate change may temporarily strengthen the coupling between human and environmental dynamics. However, climate change could ultimately result in weaker coupling at those human timescales as mitigation actions increasingly engage global-scale systems.
35-45
Lazarus, Eli
642a3cdb-0d25-48b1-8ab8-8d1d72daca6e
24 January 2014
Lazarus, Eli
642a3cdb-0d25-48b1-8ab8-8d1d72daca6e
Lazarus, Eli
(2014)
Threshold effects of hazard mitigation in coastal human–environmental systems.
Earth Surface Dynamics, 2 (1), .
(doi:10.5194/esurf-2-35-2014).
Abstract
Despite improved scientific insight into physical and social dynamics related to natural disasters, the financial cost of extreme events continues to rise. This paradox is particularly evident along developed coastlines, where future hazards are projected to intensify with consequences of climate change, and where the presence of valuable infrastructure exacerbates risk. By design, coastal hazard mitigation buffers human activities against the variability of natural phenomena such as storms. But hazard mitigation also sets up feedbacks between human and natural dynamics. This paper explores developed coastlines as exemplary coupled human–environmental systems in which hazard mitigation is the key coupling mechanism. Results from a simplified numerical model of an agent-managed seawall illustrate the nonlinear effects that economic and physical thresholds can impart into coastal human–environmental system dynamics. The scale of mitigation action affects the time frame over which human activities and natural hazards interact. By accelerating environmental changes observable in some settings over human timescales of years to decades, climate change may temporarily strengthen the coupling between human and environmental dynamics. However, climate change could ultimately result in weaker coupling at those human timescales as mitigation actions increasingly engage global-scale systems.
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Accepted/In Press date: 13 January 2014
Published date: 24 January 2014
Organisations:
Earth Surface Dynamics
Identifiers
Local EPrints ID: 400633
URI: http://eprints.soton.ac.uk/id/eprint/400633
ISSN: 2196-6311
PURE UUID: cd160f4d-196d-49bd-b43d-76230712e464
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Date deposited: 20 Sep 2016 12:37
Last modified: 15 Mar 2024 03:57
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